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Literature DB >> 33434505

R-2-hydroxyglutarate attenuates aerobic glycolysis in leukemia by targeting the FTO/m⁶A/PFKP/LDHB axis.

Ying Qing¹, Lei Dong², Lei Gao³, Chenying Li⁴, Yangchan Li⁵, Li Han⁶, Emily Prince², Brandon Tan², Xiaolan Deng², Collin Wetzel⁷, Chao Shen², Min Gao⁸, Zhenhua Chen², Wei Li², Bin Zhang⁹, Daniel Braas¹⁰, Johanna Ten Hoeve¹⁰, Gerardo Javier Sanchez¹⁰, Huiying Chen², Lai N Chan¹¹, Chun-Wei Chen¹², David Ann¹³, Lei Jiang¹⁴, Markus Müschen¹⁵, Guido Marcucci⁹, David R Plas⁷, Zejuan Li¹⁶, Rui Su¹⁷, Jianjun Chen¹⁸.

Abstract

R-2-hydroxyglutarate (R-2HG), a metabolite produced by mutant isocitrate dehydrogenases (IDHs), was recently reported to exhibit anti-tumor activity. However, its effect on cancer metabolism remains largely elusive. Here we show that R-2HG effectively attenuates aerobic glycolysis, a hallmark of cancer metabolism, in (R-2HG-sensitive) leukemia cells. Mechanistically, R-2HG abrogates fat-mass- and obesity-associated protein (FTO)/N6-methyladenosine (m6A)/YTH N6-methyladenosine RNA binding protein 2 (YTHDF2)-mediated post-transcriptional upregulation of phosphofructokinase platelet (PFKP) and lactate dehydrogenase B (LDHB) (two critical glycolytic genes) expression and thereby suppresses aerobic glycolysis. Knockdown of FTO, PFKP, or LDHB recapitulates R-2HG-induced glycolytic inhibition in (R-2HG-sensitive) leukemia cells, but not in normal CD34+ hematopoietic stem/progenitor cells, and inhibits leukemogenesis in vivo; conversely, their overexpression reverses R-2HG-induced effects. R-2HG also suppresses glycolysis and downregulates FTO/PFKP/LDHB expression in human primary IDH-wild-type acute myeloid leukemia (AML) cells, demonstrating the clinical relevance. Collectively, our study reveals previously unrecognized effects of R-2HG and RNA modification on aerobic glycolysis in leukemia, highlighting the therapeutic potential of targeting cancer epitranscriptomics and metabolism.

Entities: Chemical

Keywords: FTO; LDHB; N(6)-methyladenosine (m(6)A) modification; PFKP; R-2HG; RNA stability; YTHDF2; cancer metabolism; glycolysis; leukemia

Mesh：

Substances：

Year: 2021 PMID： 33434505 PMCID： PMC7935770 DOI： 10.1016/j.molcel.2020.12.026

Source DB: PubMed Journal: Mol Cell ISSN： 1097-2765 Impact factor: 19.328

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